CN214005994U - Energy-saving structural steel architectural decoration roof - Google Patents

Abstract

The utility model relates to an energy-conserving shaped steel structure architectural decoration roof, including roof keel frame, be provided with the roof top panel of slope and the roof lower panel of keeping flat on the roof keel frame, be provided with the roof bounding wall under roof top panel and the roof between the panel, the lower surface edge of roof keel frame reserves the wall body installation department, wall body installation department is provided with the roof recess, the surface of roof top panel and the inside multiple energy conversion device to the indoor energy of supplying are put of roof keel frame. The utility model relates to an energy-conserving shaped steel structure architectural decoration roof has that structural design is reasonable, the later maintenance of being convenient for overhauls, improves resource utilization, the heat preservation moisturizing performance is good, simple to operate swift advantage.

Description

Energy-saving structural steel architectural decoration roof

Technical Field

The utility model belongs to the technical field of the mobile building, concretely relates to energy-conserving shaped steel structure architectural decoration roof.

Background

The mobile building is a new building type, is constructed through light high-strength materials, in the prior art, generally constructs through reforming a container or utilizing the assembly member of two-sided light steel sheet parcel rock wool to weld, reaches the operation requirement through whole transportation or taking and tearing open many times, but this type of mobile building has great heat energy loss in the use, and the heat preservation and moisture retention performance is poor, and relevant functionality does not satisfy the operation requirement and the construction is comparatively complicated.

Disclosure of Invention

An object of the utility model is to provide an energy-conserving shaped steel structure architectural decoration roof, its structural design is reasonable, and the later maintenance of being convenient for overhauls, has the advantage that improves resource utilization rate, heat preservation and moisture retention can be good, simple to operate is swift.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an energy-conserving shaped steel structure architectural decoration roof, includes roof keel frame, be provided with the roof top panel of slope and the roof panel down of keeping flat on the roof keel frame, be provided with the roof bounding wall under roof top panel and the roof between the panel, the lower surface edge of roof keel frame reserves the wall body installation department, wall body installation department is provided with the roof recess, the surface of roof top panel and the inside multiple energy conversion device to the indoor energy of supplying of roof keel frame.

Furthermore, a solar photovoltaic power generation plate, a solar thermal collector and a rainwater collection device are arranged on the outer surface of the roof upper panel;

a solar water tank and a fresh air total heat exchanger are arranged in the roof keel frame;

the solar photovoltaic power generation panel is used for converting solar energy into electric energy and supplying power to the indoor;

the solar heat collector is used for converting solar energy into heat energy and supplying heat to the solar water tank;

the rainwater collecting device is used for collecting rainwater and supplying water to the indoor environment;

the fresh air full heat exchanger is used for exchanging heat between outdoor air and indoor air.

Furthermore, a plurality of vertical roof wall fixing piece sleeves are welded on the roof keel frame along the circumferential direction of the roof groove.

Furthermore, a second outdoor air inlet is formed in one side of the room cover enclosing plate, a second outdoor air outlet is formed in the other side of the room cover enclosing plate, and a plurality of second indoor air outlets are formed in the lower panel of the room cover.

Furthermore, a ventilation exhaust fan is arranged at the second indoor air outlet.

Furthermore, a plurality of second wall body positioning sensors are arranged in the roof groove.

Furthermore, the roof upper panel, the roof lower panel and the roof enclosing plate are all filled with a roof heat-insulating weather-resistant layer.

Furthermore, a roof sound insulation layer is filled in the roof keel frame.

Furthermore, the room cover enclosing plate is provided with an access hole.

The utility model provides an assembled steel construction building, includes the building basis, sets up four wall bodies on the building basis and sets up in foretell energy-conserving shaped steel structure architectural decoration roof at wall body top, is provided with angle end location wall between two adjacent wall bodies, four wall bodies include at least one door and window integrated wall, at least one pipeline integrated wall, at least one information energy control integrated wall and at most one ordinary wall body, the top of wall body is provided with the sand grip of inlaying mutually with the roof recess.

Compared with the prior art, the utility model provides an energy-conserving shaped steel structure architectural decoration roof possesses following beneficial effect:

1. the bottom of the utility model is provided with a groove for the convex strip at the top of the wall to be embedded, which can effectively improve the installation efficiency, and the top and the inside of the utility model are provided with a plurality of energy conversion devices which can supply energy to the indoor, which can effectively improve the resource utilization rate and reduce the use cost;

2. the utility model has the advantages that the wall body fixing piece sleeve matched with the wall body fixing piece is arranged in the keel frame of the roof, which can effectively improve the stability between the roof and the wall body;

3. the utility model discloses the inside of well roof upper panel, roof lower panel and roof bounding wall all fills there is roof heat preservation resistant layer, improves heat preservation moisturizing performance, and the inside of roof keel frame is filled there is roof sound insulating layer, improves the sound insulation effect;

4. the utility model discloses well roof lid is provided with the access hole on the bounding wall, can make things convenient for the later maintenance to overhaul.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description, do not constitute a limitation of the invention, in which:

fig. 1 is an external view schematic diagram of an assembled steel structure building provided by the utility model;

fig. 2 is an appearance schematic diagram of another view angle of the fabricated steel structure building provided by the present invention;

FIG. 3 is a schematic exterior view of a building foundation without anchor bolts driven;

FIG. 4 is a schematic view of the internal structure of the building foundation of FIG. 3 with the building floor removed;

FIG. 5 is a partial cross-sectional view of the building foundation after driving the ground anchor bolt;

FIG. 6 is a second partial cross-sectional view of the building foundation after the anchor bolts have been driven;

FIG. 7 is a partial cross-sectional view three of the building foundation after the anchor bolts have been driven;

FIG. 8 is a schematic view of the construction of the earth anchor bolt when not driven into the ground;

FIG. 9 is a schematic view of the structure of the anchor bolt after being driven into the ground;

FIG. 10 is a schematic view of the internal structure of the roof;

FIG. 11 is a schematic structural view of the integrated door and window wall;

FIG. 12 is a side cross-sectional view of a fenestration integrated wall with a passive door embedded therein;

FIG. 13 is a side cross-sectional view of a fenestration integrated wall incorporating passive windows;

FIG. 14 is a schematic structural view of the pipe integration wall;

FIG. 15 is a side cross-sectional view of the tube collection wall;

FIG. 16 is a side cross-sectional view of an information energy management integrated wall;

FIG. 17 is a block diagram of the control system inside the control box;

FIG. 18 is a schematic view of the corner positioning wall;

FIG. 19 is a schematic view of the connection between the corner positioning wall and the wall.

In the figure:

a building foundation 100; a basic steel frame 101; a weight pad layer 102; 102.1 parts of concrete; flat steel bars 102.2; a building floor 103; a base recess 103.1; a first opening 103.2; a foundation wall fastener sleeve 104; a base fixing connector 105; maintenance of the steel plate 106; a base pipe interface 107; a hydraulic jack 108; an earth anchor bolt 109; a steel sleeve 109.1; bolts 109.2; first thread segments 109.2.1; a smooth segment 109.2.2; a limiting groove 109.3; a movable caliper 109.4; an upper brace 109.4.1; a lower support bar 109.4.2; a hinge 109.4.3; a slider 109.4.4; second thread segments 109.4.5; a limit nut 109.5; a bolt protection cover 110; a first water tank 111; a second water tank 112; a power control device 113; a power generation device 114; a purified water treatment device 115; a data store 116; a GPS positioning sensor 117; a wireless data transmitter 118; a first wall positioning sensor 119; a mounting box 120; a tap water inlet conduit 121; a second sewer pipe 122; a base first power line conduit 123; an underlying network line pipe 124;

a roof 200; a roof keel frame 201; a roof groove 201.1; a roof top panel 202; a roof lower panel 203; a roof covering shroud 204; a roof wall mount sleeve 205; a solar water tank 206; a fresh air total heat exchanger 207; a second outdoor air intake 208; a ventilation exhaust fan; a second outdoor air outlet 210; a solar photovoltaic panel 211; a solar collector 212; a rainwater collection device 213;

a door and window integrated wall 300; the door and window integrated wall inner keel 301; door and window integrated wall outer keel 302; the door and window integrated wall partition keel 303; door and window integrated wall interior panels 304; door and window integrated wall exterior panels 305; a first rib 306 of the door and window integrated wall; a second rib 307 of the door and window integrated wall; a door and window integrated wall first wall fixture 308; a door and window integrated wall second wall fixing member 309; a passive door mounting opening 310; a passive window mounting opening 311; a passive door 312; a door frame 312.1; a door body 312.2; a door shaft 312.3; passive door controller 312.4; passive door split lock 312.5; a door handle 312.6; a cat-eye facial recognition module 312.7; a passive window 313; a window frame 313.1; window 313.2; a window shaft 313.3; passive window controller 313.4; passive window split lock 313.5; a small electric hoist 313.6; a window shutter 313.6.1; a first thermal break bridge connection 314; a second thermal break bridge connection 315; a rain and sun shade 316; door and window integrated wall positioning sensor 317; door and window integrated wall duct interface 318;

a pipe integration wall 400; a conduit integration wall inner keel 401; the duct integrated wall studs 402; the pipe integrated wall partition keel 403; a pipe integrated wall interior panel 404; external wall panels 405 of the pipeline integrated wall; a first rib 406 of the pipe integrated wall; a second rib 407 of the pipe integrated wall; a pipe integrated wall first wall fixture 408; a second wall body fixing part 409 of the pipeline integrated wall; pipeline integrated wall control line pipeline 410; pipe integrated wall first power line pipe 411; duct integrated wall second power line duct 412; pipe integrated wall third power line pipe 413; pipe integrated wall network line pipes 414; pipeline integrated wall circulating water pipeline 415; a water collection conduit 416; a pipe integrated wall positioning sensor 417; a pipeline integration wall pipeline interface 418; indoor intake duct 419;

an information energy control integrated wall 500; an information energy control integrated wall keel 501; an information energy control integrated wall exterior keel 502; the information energy control integrated wall partition keel 503; an information energy control integrated wall interior wall panel 504; an information energy control integrated wall external wall panel 505; a first rib 506 of the information energy control integrated wall; a second convex strip 507 of the information energy control integrated wall; a first wall mount 508 of the information energy control integrated wall; an information energy control integrated wall second wall mount 509; an information energy control integrated wall pipe interface 510; a control box 511; a control line conduit 512; a central control switch 513; a touch-sensitive display screen 514;

a common wall body 600;

corner end positioning walls 700; corner end positioning wall inner keel 701; corner end positioning wall external keel 702; corner end positioning wall partition keel 703; assembling the connecting component 704; a first stop bar 704.1; a second stop bar 704.2; a set of tooth alignment fasteners 704.3; a first pair of tooth fasteners 704.3.1; a second pair of tooth fasteners 704.3.2; fixing bolts 704.4; wall keel frame 705.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 19, the present invention provides a technical solution: an assembled steel structure building comprises a building foundation 100, four walls arranged on the building foundation 100 and a roof 200 arranged at the top of the walls, wherein an angle end positioning wall 700 is arranged between every two adjacent walls, and each four walls comprise at least one door and window integrated wall 300, at least one pipeline integrated wall 400, at least one information energy control integrated wall 500 and at most one common wall 600;

the building foundation 100 comprises a rectangular basic steel frame 101, a weight pad layer 102 is arranged at the bottom of the basic steel frame 101, a building bottom plate 103 is arranged at the top of the basic steel frame 101, a plurality of vertically-arranged foundation wall fixing piece sleeves 104 are welded on the inner wall of the basic steel frame 101 along the circumferential direction, foundation fixing connecting pieces 105 are arranged at the four corners of the basic steel frame 101,

the basic steel frame 101 is a regular frame of a hard high-strength steel structure, maintenance steel plates 106 are arranged around the basic steel frame 101, and a plurality of second openings which correspond to one another are formed in the side walls of the maintenance steel plates 106 and the side walls of the basic steel frame 101;

the inner four corners of the maintenance steel plate 106 are connected with the outer four corners of the basic steel frame 101 through welding;

the counterweight cushion layer 102 is a prefabricated component, the counterweight cushion layer 102 comprises reinforcing steel bars and concrete 102.1 poured with the reinforcing steel bars into a whole, and the periphery of the concrete 102.1 is surrounded by flat steel bars 102.2;

the upper surface of the counterweight cushion layer 102 is provided with a plurality of reserved mounting hole positions, and the lower surface of the counterweight cushion layer 102 is provided with a bidirectional tooth surface, so that the adhesion force with the ground of a mounting field can be increased;

the external size of the weight cushion layer 102 is slightly smaller than the internal size of the basic steel frame 101, and the weight cushion layer 102 is connected with the basic steel frame 101 through welding;

the building bottom plate 103 is a hard steel plate, a wall body installation part is reserved on the edge of the upper surface of the building bottom plate 103, a sunken foundation groove 103.1 is formed in the wall body installation part, and a plurality of first wall body positioning sensors 119 are arranged on the foundation groove 103.1;

the first wall positioning sensors 119 are contact sensors, the first wall positioning sensors 119 determine installation positions through contact points at the bottom of the wall, and the first wall positioning sensors 119 are regularly distributed in the foundation grooves 103.1 of the building bottom plate 103 according to the installation sequence of the wall;

a plurality of first open holes 103.2 are formed in the foundation groove 103.1 along the circumferential direction, and the plurality of first open holes 103.2 correspond to the plurality of foundation wall fixing piece sleeves 104 respectively;

a plurality of basic pipeline interfaces 107 are arranged in the basic groove 103.1;

the building bottom plate 103 is connected with the basic steel framework 101 through welding;

hydraulic top braces 108 which are vertically arranged are arranged in four corners of the basic steel framework 101, and the hydraulic top braces 108 are electric high-pressure jacks;

the foundation wall fixture sleeve 104 is a high-strength rigid connection sleeve structure;

the foundation fixing connecting piece 105 is of a hard high-strength hollow round steel barrel structure, the foundation fixing connecting piece 105 is driven into the ground of an installation field through an earth anchor bolt 109 for fixing, and a bolt protective cover 11 is arranged at the top end of the foundation fixing connecting piece 105;

the bolt protection cover 110 is a special-shaped hard steel plate, and the bolt protection cover 110 is hinged with the side wall of the base fixed connecting piece 105;

the ground anchor bolt 109 comprises a steel sleeve 109.1, a bolt 109.2 is arranged in the steel sleeve 109.1, the upper section of the bolt 109.2 is a first thread section 109.2.1, the lower section of the bolt 109.2 is a smooth section 109.2.2, a screw hole is formed in the top end of the bolt 109.2, the bottom end of the bolt 109.2 is in a pointed shape, a plurality of vertically arranged limiting grooves 109.3 are formed in the lower section of the steel sleeve 109.1, the limiting grooves 109.3 are arranged at intervals along the circumferential direction of the steel sleeve 109.1, a movable caliper 109.4 is arranged in the limiting groove 109.3, the movable caliper 109.4 comprises an upper brace 109.4.1 and a lower brace 109.4.2, the top end of the upper brace 109.4.1 is hinged to the top of the limiting groove 109.3, the bottom end of the upper brace 109.4.1 is hinged to the top end of the lower brace 109.4.2 through a hinge 109.4.3, the bottom end of the lower brace 109.4.2 is provided with a slider 109.4.4 capable of moving up and down along the length direction of the limiting groove 109.3, and the inner wall surface of the slider 109.4.4 is provided with a second thread section 109.4.5, the second thread segments 109.4.5 are in mating connection with the first thread segments 109.2.1;

a limiting nut 109.5 is arranged on the top end of the steel sleeve 109.1 in a circle mode;

the length of the bolt 109.2 is larger than that of the steel sleeve 109.1;

when the ground anchor bolt 109 is used, the ground anchor bolt 109 is drilled into the ground through physical knocking, when the limit nut 109.5 abuts against the top end of the base fixed connecting piece 105, drilling of the steel sleeve 109.1 is stopped, then the bolt 109.2 in the steel sleeve 109.1 is rotated through a tool, when the first thread section 109.2.1 is connected with the second thread section 109.4.5, the first thread section 109.2.1 and the second thread section 109.4.5 are connected through reverse threads to drive the sliding block 109.4.4 to move upwards, so that the included angle between the upper brace 109.4.1 and the lower brace 109.4.2 is reduced, namely the movable caliper 109.4 is opened, so that the movable caliper 109.4 and a soil body are firmly stressed, and the ground is clamped;

a first water tank 111, a second water tank 112, an electric power control device 113, a power generation device 114, a purified water treatment device 115, a data storage 116, a GPS positioning sensor 117 and a wireless data transmitter 118 are arranged in the basic steel framework 101,

the first water tank 111 is used for collecting tap water and conveying the tap water to the indoor space;

the first water tank 111 is fixed on a reserved mounting hole of the counterweight cushion layer 102 through a bolt, the first water tank 111 comprises a tap water inlet and a tap water outlet, the tap water inlet is connected with an external water source through a tap water inlet pipeline 121, and the tap water outlet is connected with an indoor water facility port through a tap water outlet pipeline;

the tap water inlet pipeline 121 is a plastic weather-resistant pipeline, and the tap water inlet pipeline 121 is laid between the building bottom plate 103 and the weight cushion layer 103;

the second water tank 112 is used for collecting rainwater and conveying the rainwater indoors;

the second water tank 112 is fixed on a reserved mounting hole of the counterweight cushion layer 102 through a bolt, the second water tank 112 comprises a rainwater inlet and a rainwater outlet, the rainwater inlet is connected with a rainwater collecting device 213 through a rainwater collecting pipeline, and the rainwater outlet is connected with an indoor reclaimed water facility through a rainwater outlet pipeline;

the first water tank 111 and the second water tank 112 are both connected with a booster pump;

the first water tank 111 and the second water tank 112 are both hard surrounding water tank structures;

the electric control device 113 is used for controlling the action of the hydraulic top support 108;

the electric control device 113 is connected with the hydraulic top support 108 through a control line;

the power generation device 114 is used for supplying energy to the indoor space and outputting electric energy;

the power generation device 114 is fixed on a reserved mounting hole of the counterweight cushion layer 102 through a bolt, the power generation device 114 comprises an energy supply port and an electric energy output port, and supplies energy and outputs electric energy through fuel oil and natural gas;

the purified water treatment device 115 is used for purifying and recycling sewage discharged indoors;

the purified water treatment device 115 is fixed on the reserved mounting hole of the counterweight cushion layer 102 through a bolt, the purified water treatment device 115 comprises a purification treatment system and a water storage tank, the purification treatment system is connected with an indoor drainage facility port through a first sewage pipeline, the water storage tank is connected with an indoor water facility port through a purified water circulation pipeline, under special conditions, recycled sewage enters a specific sewage discharge pipeline, the sewage discharge pipeline is connected with the first sewage pipeline, and the sewage purified by the purification treatment system supplies water for the indoor through the purified water circulation pipeline, so that the water utilization rate is improved;

the first sewage pipeline is a plastic weather-resistant pipeline and is laid between the building bottom plate 103 and the counterweight cushion layer 103;

the purified water circulating pipeline is a plastic weather-resistant pipeline and is laid between the building bottom plate 103 and the weight cushion layer 103;

the data store 116 is a sensor data collector;

the GPS positioning sensor 117 is a positioning sensor that uses satellite positioning;

the wireless data transmitter 118 is a hardware data remote wireless transmission device;

the first wall positioning sensor 119 transmits the mounting position data of the wall to the data storage 116 through a data line, and the data storage 116 is connected with the wireless data transmitter 118 through a data line;

the data storage 116, the GPS positioning sensor 117 and the wireless data transmitter 118 are installed on the inner wall of the basic steel framework 101 through the installation box 120;

a second sewage pipeline 122, a foundation first electric power line pipeline 123, a foundation second electric power line pipeline and a foundation network line pipeline 124 are laid between the building bottom plate 103 and the weight cushion 103;

the second sewage pipeline 122 is a plastic weather-resistant pipeline, one end of the second sewage pipeline 122 passes through second openings in the basic steel frame 101 and the maintenance steel plate 106 to be connected with an external sewage treatment pipeline, and the other end of the second sewage pipeline 122 passes through a building bottom plate to be connected with an indoor drainage facility port;

the basic first power line pipeline 123 is a plastic weather-resistant pipeline, one end of the basic first power line pipeline 123 passes through the basic steel frame 101 and the second opening on the maintenance steel plate 106 to be connected with an external power supply, and the other end of the basic first power line pipeline 123 is connected with the basic pipeline interface 107;

the basic second electric power line pipeline is a plastic weather-resistant pipeline, one end of the basic second electric power line pipeline is connected with an electric energy output port of the power generation device 114, and the other end of the basic second electric power line pipeline is connected with a basic pipeline interface 107;

the basic network line pipeline 124 is a plastic weather-resistant pipeline, one end of the basic network line pipeline 124 passes through the second openings on the basic steel frame 101 and the maintenance steel plate 106 to be connected with an external network signal, and the other end of the basic network line pipeline 124 is connected with the basic pipeline interface 107;

a basic heat-insulating weather-resistant layer is filled between the building bottom plate 103 and the counterweight cushion layer 103, the basic heat-insulating weather-resistant layer is made of a heat-insulating material with a certain self-expansion coefficient, and the basic heat-insulating weather-resistant layer is fully filled between the building bottom plate 103 and the counterweight cushion layer 103 to form gap protection.

The roof 200 comprises a roof keel frame 201, an upper roof panel 202 which is inclined downwards from back to front and a lower roof panel 203 which is horizontally arranged are arranged on the roof keel frame 201, a roof boarding 204 is arranged between the upper roof panel 202 and the lower roof panel 203, a wall mounting part is reserved on the edge of the lower surface of the roof keel frame 201, a roof groove 201.1 is arranged at the wall mounting part, a plurality of vertical roof wall fixing piece sleeves 205 are welded on the roof keel frame 201 along the circumferential direction of the roof groove 201.1, and the roof wall fixing piece sleeves 205 are positioned at the top of the roof groove 201.1;

a plurality of second wall positioning sensors are further arranged in the roof groove 201.1, the second wall positioning sensors are contact sensors, and the second wall positioning sensors determine the installation positions through contact points at the top of the wall;

a plurality of roof pipeline connectors are arranged on the roof groove 201.1;

the outer surface of the roof upper panel 202 is provided with a solar photovoltaic power generation panel 211, a solar heat collector 212 and a rainwater collection device 213;

a solar water tank 206 and a fresh air total heat exchanger 207 are arranged in the roof keel frame 201;

the solar photovoltaic power generation panel 211 is used for converting solar energy into electric energy and supplying power to the indoor, the solar photovoltaic power generation panel 211 is connected with a roof pipeline interface through a roof power line pipeline, the solar photovoltaic power generation panel 211 comprises a reflection plate, an electric energy conversion device, a transformer and a current stabilizer, the solar heat collector 212 is used for converting solar energy into heat energy and supplying heat to the solar water tank 206, the rainwater collection device 213 is used for collecting rainwater and supplying water to the indoor, the rainwater collection device 213 comprises a rainwater collection tank with a radian, the rainwater collection tank is connected with a rainwater diversion pipeline, and the other end of the rainwater diversion pipeline is connected with a rainwater collection pipe through the roof pipeline interface;

the inner wall surface of the rainwater diversion pipeline is provided with a thread structure with a diversion function;

the solar water tank 206 comprises a plurality of water inlets and water outlets, one water inlet of the solar water tank 206 is connected with the solar heat collector 212 through a pipeline, and the water outlet of the solar water tank 206 is connected with a roof pipeline connector through a roof circulating water pipeline;

the roof circulating water pipeline is a metal pipeline with better heat conductivity;

the fresh air total heat exchanger 207 is an air heat energy exchange device, and the fresh air total heat exchanger 207 is used for exchanging heat between outdoor air and indoor air;

the fresh air full heat exchanger 207 comprises a heat exchange system, a first outdoor air inlet, a first indoor air outlet and a first outdoor air outlet;

a second outdoor air inlet 208 is arranged on the front side of the roof cover enclosing plate 204, the second outdoor air inlet 208 is connected with a first outdoor air inlet through a pipeline, a second indoor air inlet is arranged on the building bottom plate 103, the second indoor air inlet is connected with a first indoor air inlet through a pipeline, a plurality of second indoor air outlets 209 are arranged on the roof lower panel 203, and the second indoor air outlets 209 are connected with the first indoor air outlets through pipelines; a second outdoor air outlet 210 is arranged at the rear side of the roof cover enclosing plate 204, and the second outdoor air outlet 210 is connected with the first outdoor air outlet through a pipeline;

a ventilation and exhaust fan is arranged at the second indoor air outlet 209;

the roof cover enclosing plate 204 is also provided with an access hole, and an access door is installed at the access hole;

the roof upper panel 202 and the roof lower panel 203 are made of hard plastic steel plates, and the roof enclosing plate 204 is made of special-shaped hard plastic steel plates;

the roof upper panel 202, the roof lower panel 203 and the roof surrounding plate 204 are all filled with roof heat-insulating weather-resistant layers;

a roof sound insulation layer is filled in the roof keel frame 201, and is a decorative material with a certain sound absorption effect;

the roof wall mount sleeve 205 is a high strength rigid connection sleeve structure.

The door and window integrated wall 300 comprises a door and window integrated wall keel frame, the door and window integrated wall keel frame comprises a door and window integrated wall inner keel 301 and a door and window integrated wall outer keel 302, a door and window integrated wall partition keel 303 is arranged between the door and window integrated wall inner keel 301 and the door and window integrated wall outer keel 302, a door and window integrated wall inner wallboard 304 is arranged on the door and window integrated wall inner keel 301, a door and window integrated wall outer wallboard 305 is arranged on the door and window integrated wall outer keel 302, a door and window integrated wall first convex strip 306 and a door and window integrated wall second convex strip 307 are respectively arranged at the top and the bottom of the door and window integrated wall keel frame, the door and window integrated wall first convex strip 306 is embedded with a roof groove 301.1, the door and window integrated wall second convex strip 307 is embedded with a foundation groove 103.1, a plurality of door and window integrated wall first wall fixing pieces 308 extending upwards are welded at the top of the door and window integrated wall first convex strip 306 along the length direction at intervals, a plurality of second door and window wall fixing pieces 309 extending downwards are welded at intervals at the bottom of the second door and window wall protruding strips 307 along the length direction of the second door and window wall protruding strips, the first door and window wall fixing pieces 308 are inserted into the roof wall fixing piece sleeve 305, and the second door and window wall fixing pieces 309 are inserted into the foundation wall fixing piece sleeve 104;

the door and window integrated wall positioning sensor 317 and the door and window integrated wall pipeline interfaces 318 are arranged on the door and window integrated wall first convex strip 306 and the door and window integrated wall second convex strip 307;

the door and window integrated wall positioning sensor 317 is a contact sensor;

sealing glue with certain self-expansion sealing performance is stuck to the edge of the port of the door and window integrated wall pipeline interface 318;

the first wall fixing piece 308 of the door and window integrated wall and the second wall fixing piece 309 of the door and window integrated wall are solid long-strip-shaped hard high-strength steel bars;

the door and window integrated wall inner wall board 304 is a gypsum board with certain strength, a thin steel plate is prefabricated in the door and window integrated wall inner wall board 304, and a plurality of control boxes are arranged on the door and window integrated wall inner wall board 304;

the door and window integrated wall external wall panel 305 is a steel plate with higher strength, and a waterproof anticorrosive layer and a fluorescent layer are adhered to the outer side surface of the door and window integrated wall external wall panel 305;

a door and window integrated wall sound insulation layer is filled between the door and window integrated wall inner wall plate 304 and the door and window integrated wall partition keel 303, and the door and window integrated wall sound insulation layer is a decorative material with a certain sound absorption effect;

a door and window integrated wall heat-insulating weather-resistant layer is filled between the door and window integrated wall external wall panel 305 and the door and window integrated wall partition keel 303, and the door and window integrated wall heat-insulating weather-resistant layer is made of a heat-insulating material with a certain self-expansion coefficient;

a passive door mounting opening 310 and a passive window mounting opening 311 are reserved on the door and window integrated wall inner wall plate 304, the door and window integrated wall outer wall plate 305 and the door and window integrated wall keel frame, a passive door 312 is arranged at the passive door mounting opening 310, and a passive window 313 is arranged at the passive window mounting opening 311;

the top and the bottom of the passive door 312 are both provided with a first heat-insulating bridge connecting piece 314, and the first heat-insulating bridge connecting piece 314 is arranged between the door and window integrated wall external wall panel 305 and the door and window integrated wall partition keel 303 through fixing nails and weather-resistant glue;

the first heat-insulating bridge connecting piece 314 is made of a wood material with better durability, waterproofness and corrosion resistance;

the passive door 312 is a passive evacuation system door member with small heat loss, the passive door 312 includes a door frame 312.1, a door body 312.2, a door shaft 312.3, a passive door electromagnetic lock and a security door guard, the door frame 312.1 is welded with the door and window integrated outer wall keel 302, the door body 312.2 is connected in the door frame 312.1 through a door shaft 312.3,

the passive door electromagnetic lock performs opening and closing actions according to the power-on state, the passive door electromagnetic lock comprises a passive door controller 312.4 and a passive door split lock 312.5, the passive door controller 312.4 is an electromagnetic signal controller, the passive door controller 312.4 is installed on a door and window integrated wall keel 301 through a control box, the passive door controller 312.4 is connected with an information and energy control integrated wall 500 through a control line, the passive door split lock 312.5 comprises a door body limit and a door frame limit which are connected in a matched mode, the door body limit is installed on the outer side of a door body 312.2, and the door frame limit is installed on the outer side of a door frame 312.1;

the security entrance guard comprises a door handle 312.6 and a cat eye face recognition module 312.7, the door handle 312.6 comprises a door handle body and a fingerprint recognition module, the fingerprint recognition module is a hardware sensor, the fingerprint recognition module is connected with a passive door electromagnetic lock and an information energy control integrated wall 500 through a control line, the cat eye face recognition module 312.7 comprises a cat eye camera and a face recognition module, and the cat eye face recognition module is connected with the passive door electromagnetic lock and the information energy control integrated wall 500 through the control line;

a gap between the door body 312.2 and the door frame 312.1 is provided with a passive door sealing layer, the passive door sealing layer is arranged on the door body 312.2, and the passive door sealing layer is made of a weather-resistant bridge-cut-off material;

the door body 312.2 is made of a door member material based on a passive technology;

the door shaft 312.2 is a hard steel sleeve;

the top and the bottom of the passive window 313 are both provided with a second heat-insulating bridge connecting piece 315, and the second heat-insulating bridge connecting piece 315 is arranged between the door and window integrated wall external wall panel 305 and the door and window integrated wall partition keel 303 through fixing nails and weather-resistant glue;

the second heat-insulating bridge connecting piece 315 is a wooden material with good durability, water resistance and corrosion resistance;

the passive window 313 is a passive ventilation lighting system window component with small heat loss, the passive window 313 comprises a window frame 313.1, a window 313.2, a window shaft 313.3, a security window brake and a passive window electromagnetic lock, the window frame 313.1 is welded with the integrated exterior wall keel 302 of the door and window, the window 313.2 is connected in the window frame 313.1 through a window shaft 313.3,

the security window gate is a roller shutter type electric window gate and comprises a small electric winch 313.6 and a sliding track, the small electric winch 313.6 is installed on a keel 302 outside a door and window integrated wall, the small electric winch 313.6 comprises a control device, a motor and a window gate 313.6.1 arranged outside a window 313.2, the control device is connected with the information energy control integrated wall 500 through a control line, and the control device is used for controlling the motor to enable the window gate 313.6.1 to lift in the sliding track;

the sliding limit track is made of hard steel, and is connected with the door and window integrated wall outer keel 302 through welding;

the passive window electromagnetic lock performs opening and closing actions according to the power-on state, the passive window electromagnetic lock comprises a passive window controller 313.4 and a passive window split lock 313.5, the passive window controller 313.4 is an electromagnetic signal controller, the passive window controller 313.4 is installed on an inner keel 301 of a door and window integrated wall through a control box, the passive window controller 313.4 is connected with an information and energy control integrated wall 500 through a control line, the passive window split lock 313.5 comprises a window gate plate limit and a window frame limit which are connected in a matched mode, the window gate plate limit is installed on the outer side of a window gate plate 313.6.1, and the window frame limit is installed on the outer side of a window frame 313.1;

a passive window sealing layer is arranged at a gap between the window body 313.2 and the window frame 313.1, the passive window sealing layer is arranged on the window body 313.2, and the passive window sealing layer is made of weather-resistant bridge-cut-off materials;

the passive window 313 is a casement window, and the passive window 313 is made of a window component material based on a passive technology;

the window shaft 313.3 is a hard steel sleeve;

a retractable rain and sun shade 316 is arranged outside the door and window integrated wall external wall panel 305, the rain and sun shade 316 is positioned above the passive window 313, and the fixed end of the rain and sun shade 316 is connected with the door and window integrated wall external keel 302.

The pipeline integrated wall 400 comprises a pipeline integrated wall keel frame, the pipeline integrated wall keel frame comprises a pipeline integrated wall inner keel 401 and a pipeline integrated wall outer keel 402, a pipeline integrated wall partition keel 403 is arranged between the pipeline integrated wall inner keel 401 and the pipeline integrated wall outer keel 402, a pipeline integrated wall inner wallboard 404 is arranged on the pipeline integrated wall inner keel 401, a pipeline integrated wall outer wallboard 405 is arranged on the pipeline integrated wall outer keel 402, a pipeline integrated wall first convex strip 406 and a pipeline integrated wall second convex strip 407 are respectively arranged at the top and the bottom of the pipeline integrated wall keel frame, the pipeline integrated wall first convex strip 406 is embedded with a roof groove 401.1, the pipeline integrated wall second convex strip 407 is embedded with a foundation groove 103.1, a plurality of pipeline integrated wall first wall fixing pieces 408 extending upwards are welded at intervals at the top of the pipeline integrated wall first convex strip 406 along the length direction, a plurality of pipeline integrated wall second wall fixing pieces 409 extending downwards are welded at intervals at the bottom of the pipeline integrated wall second convex strip 407 along the length direction of the pipeline integrated wall second convex strip, the pipeline integrated wall first wall fixing pieces 408 are inserted into the roof wall fixing piece sleeve 405, and the pipeline integrated wall second wall fixing pieces 409 are inserted into the foundation wall fixing piece sleeve 104;

the first rib 406 and the second rib 407 of the pipeline integration wall are both provided with a pipeline integration wall positioning sensor 417 and a plurality of pipeline integration wall pipeline interfaces 418;

the pipeline integrated wall positioning sensor 417 is a contact sensor;

a sealing glue with certain self-expansion sealing performance is stuck to the edge of the port of the pipeline interface 418 of the pipeline integrated wall;

the first wall body fixing piece 408 of the pipeline integrated wall and the second wall body fixing piece 409 of the pipeline integrated wall are solid long-strip-shaped hard high-strength steel bars;

the pipeline integrated wall inner wall board 404 is a gypsum board with certain strength, a thin steel plate is prefabricated in the pipeline integrated wall inner wall board 404, and a plurality of control boxes are arranged on the pipeline integrated wall inner wall board 404;

the outer wall panel 405 of the pipeline integrated wall is a steel plate with higher strength, and a waterproof anticorrosive layer and a fluorescent layer are adhered on the outer side surface of the outer wall panel 405 of the pipeline integrated wall;

a pipeline integrated wall sound insulation layer is filled between the pipeline integrated wall inner wall plate 404 and the pipeline integrated wall partition keel 403, and the pipeline integrated wall sound insulation layer is a decorative material with a certain sound absorption effect;

a pipeline integrated wall heat-insulating weather-resistant layer is filled between the pipeline integrated wall external wall panel 405 and the pipeline integrated wall partition keel 403, and the pipeline integrated wall heat-insulating weather-resistant layer is made of a heat-insulating material with a certain self-expansion coefficient;

a pipeline integrated wall control circuit pipeline 410, a pipeline integrated wall first electric power circuit pipeline 411, a pipeline integrated wall second electric power circuit pipeline 412, a pipeline integrated wall third electric power circuit pipeline 413, a pipeline integrated wall network pipeline 414, a pipeline integrated wall circulating water pipeline 415, a water collecting pipeline 416 and an indoor air inlet pipeline 419 are arranged in the pipeline integrated wall keel frame, the pipeline integrated wall control circuit pipeline 410, the pipeline integrated wall first electric power circuit pipeline 411, the pipeline integrated wall second electric power circuit pipeline 412, the pipeline integrated wall third electric power circuit pipeline 413, the pipeline integrated wall network pipeline 414, the pipeline integrated wall circulating water pipeline 415, the water collecting pipeline 416 and the indoor air inlet pipeline 419 are fixedly arranged on the pipeline integrated wall partition keel 403 through metal wires,

the pipeline integrated wall control circuit pipeline 410 is a plastic weather-resistant pipeline, a plurality of control lines are arranged in the pipeline integrated wall control circuit pipeline 410, and the pipeline integrated wall control circuit pipeline 410 is connected between the information energy control integrated wall 500 and an indoor output control sensing signal device;

the pipeline integrated wall first power line pipeline 411 is a plastic weather-resistant pipeline, one end of the pipeline integrated wall first power line pipeline 411 is connected with an indoor power utilization port through a control box, and the other end of the pipeline integrated wall first power line pipeline 411 is connected with a foundation first power line pipeline 123 (an external power supply) through a pipeline integrated wall pipeline interface 418 and a foundation pipeline interface 107;

the pipe integrated wall second power line pipe 412 is a plastic weather-resistant pipe, one end of the pipe integrated wall second power line pipe 412 is connected with an indoor power utilization port, and the other end of the pipe integrated wall second power line pipe 412 is connected with a foundation second power line pipe (an electric energy output port of the power generation device 114) through a pipe integrated wall pipe interface 418 and a foundation pipe interface 107;

the third power line pipeline 413 of the pipeline integrated wall is a plastic weather-resistant pipeline, one end of the third power line pipeline 413 of the pipeline integrated wall is connected with an indoor power utilization port, and the other end of the third power line pipeline 413 of the pipeline integrated wall is connected with a roof power line pipeline (the solar photovoltaic power generation panel 211) through a pipeline integrated wall pipeline interface 418 and a roof pipeline interface;

the pipeline integrated wall network line pipeline 414 is a plastic weather-resistant pipeline, one end of the pipeline integrated wall network line pipeline 414 is connected with the information energy control integrated wall 500, and the other end of the pipeline integrated wall network line pipeline 414 is connected with the basic network line pipeline 124 (external network signal) through a pipeline integrated wall pipeline interface 418 and a basic pipeline interface 107;

the pipeline integrated wall circulating water pipeline 415 is a metal pipeline with good heat conductivity, one end of the pipeline integrated wall circulating water pipeline 415 is connected with a roof circulating water pipeline (a water outlet of a solar hot water tank) through a pipeline integrated wall pipeline interface 418 and a roof pipeline interface, and the other end of the pipeline integrated wall circulating water pipeline 415 is laid for a circle along the perimeter direction of the building bottom plate 103 and is connected with a water inlet of the solar hot water tank through the pipeline integrated wall pipeline interface 418 and the roof pipeline interface;

the water collecting pipeline 416 is a hard plastic pipeline, one end of the water collecting pipeline 416 is connected with a rainwater diversion pipeline through a pipeline integrated wall pipeline interface 418 and a roof pipeline interface, and the other end of the water collecting pipeline 416 is connected with a rainwater collecting pipeline (indoor reclaimed water facility) through a pipeline integrated wall pipeline interface 418 and a basic pipeline interface 107;

the inner wall of the water collecting pipeline 416 is provided with spiral grains;

one end of the indoor air inlet pipeline 419 is connected with the first indoor air inlet of the fresh air total heat exchanger 207 through the pipeline integrated wall pipeline interface 418 and the roof pipeline interface, and the other end of the indoor air inlet pipeline 419 is connected with the second indoor air inlet of the building bottom plate 103.

The information energy control integrated wall 500 comprises an information energy control integrated wall keel frame, the information energy control integrated wall keel frame comprises an information energy control integrated wall inner keel 501 and an information energy control integrated wall outer keel 502, an information energy control integrated wall partition keel 503 is arranged between the information energy control integrated wall inner keel 501 and the information energy control integrated wall outer keel 502, an information energy control integrated wall inner wall plate 504 is arranged on the information energy control integrated wall inner keel 501, an information energy control integrated wall outer wall plate 505 is arranged on the information energy control integrated wall outer keel 502, an information energy control integrated wall first convex strip 506 and an information energy control integrated wall second convex strip 507 are respectively arranged at the top and the bottom of the information energy control integrated wall keel frame, the information energy control integrated wall first convex strip 506 is embedded with a roof groove 501.1, the second information energy control integrated wall convex strips 507 are in scarf joint with the foundation grooves 103.1, a plurality of information energy control integrated wall first wall body fixing pieces 508 extending upwards are welded at intervals along the length direction of the top of the information energy control integrated wall first convex strips 506, a plurality of information energy control integrated wall second wall body fixing pieces 509 extending downwards are welded at intervals along the length direction of the bottom of the information energy control integrated wall second convex strips 507, the information energy control integrated wall first wall body fixing pieces 508 are inserted into the roof wall body fixing piece sleeve 505, and the information energy control integrated wall second wall body fixing pieces 509 are inserted into the foundation wall body fixing piece sleeve 104;

the information energy control integrated wall first convex strip 506 and the information energy control integrated wall second convex strip 507 are both provided with an information energy control integrated wall positioning sensor and a plurality of information energy control integrated wall pipeline interfaces 510;

the information energy control integrated wall positioning sensor is a contact sensor;

the edge of the port of the information energy control integrated wall pipeline interface 510 is adhered with sealing glue with certain self-expansion sealing performance;

the first wall body fixing piece 508 and the second wall body fixing piece 509 of the information energy control integrated wall are solid long-strip-shaped hard high-strength steel bars;

the information energy control integrated wall inner wall plate 504 is a gypsum plate with certain strength, and a thin steel plate is prefabricated in the information energy control integrated wall inner wall plate 504;

the information energy control integrated wall external wall panel 505 is a steel plate with higher strength, and a waterproof anticorrosive layer and a fluorescent layer are adhered on the outer side surface of the information energy control integrated wall external wall panel 505;

an information energy control integrated wall sound insulation layer is filled between the information energy control integrated wall inner wall plate 504 and the information energy control integrated wall partition keel 503, and the information energy control integrated wall sound insulation layer is a decorative material with a certain sound absorption effect;

an information energy control integrated wall heat-insulating weather-resistant layer is filled between the information energy control integrated wall external wall panel 505 and the information energy control integrated wall partition keel 503, and the information energy control integrated wall heat-insulating weather-resistant layer is made of a heat-insulating material with a certain self-expansion coefficient;

a control box 511 is arranged on the information energy control integrated wall inner wall board 504, and the control box 511 is welded with the information energy control integrated wall inner keel 501;

the control box 511 is of a hard metal surrounding plate structure, a control line pipeline 512 is connected to the control box 511, a plurality of control lines are arranged in the control line pipeline 512, and the control line pipeline 512 is laid in the information energy control integrated wall keel frame;

a central control switch 513 is further arranged on the information energy control integrated wall inner wall plate 504, and the central control switch 513 is positioned above the control box 511;

the central control switch 513 is a physical switch key, and the central control switch 513 includes an indoor lighting system switch, a sound system switch and an access control system switch;

a touch display screen 514 is arranged on the inner side surface of the control box 511;

the control box 511 is provided with an information control system module, an electromechanical control system module, a waterway control system module, a network modulation module, an inclination angle sensor, a temperature and humidity sensor and an air pressure sensor;

the touch display screen 514 is an intelligent electronic device capable of being controlled and displayed, and has a function of installing a software program, and the touch display screen 514 is connected with the data storage 116, the GPS positioning sensor 117, the information control system module, the electromechanical control system module, the waterway control system module, the network modulation module, the tilt angle sensor, the temperature and humidity sensor and the air pressure sensor through data lines to acquire data, process and display the data;

the information control system module is relay sensor hardware and is connected with a passive window controller 313.4, a control device of a small electric winch 313.6, a door handle 312.6, a cat eye face recognition module 312.7 and a central control switch 513 through control lines;

the electromechanical control system module comprises a first bus controller, a plurality of intelligent electric meters and a plurality of motor control sensors, wherein the first bus controller is connected with the intelligent electric meters and the motor control sensors through control lines, the intelligent electric meters are power meters capable of carrying out time-sharing power consumption data statistics, the plurality of intelligent electric meters are respectively installed on an indoor power consumption general meter, a power generation device 114 and a solar photovoltaic power generation board 211, and the motor control sensors are connected with a power control device 113, the power generation device 114 and the solar photovoltaic power generation board 211 through control lines;

the waterway control system module comprises a second bus controller, a flowmeter, an electric water valve and intelligent water meters, wherein the second bus controller is connected with the flowmeter, the electric water valves and the intelligent water meters through control lines; the flowmeter is arranged in an indoor water consumption general meter; the electric water valves are equipment for driving the valve switches through a power supply, and the electric water valves are respectively arranged in the tap water inlet pipeline 121, the roof circulating water pipeline, the pipeline integrated wall circulating water pipeline 415 and the water collecting pipeline 416; the intelligent water meters are capable of carrying out time-sharing water consumption data, and the intelligent water meters are respectively arranged in the first water tank 111, the second water tank 112 and the solar water tank 206;

the network modulation module is an integrated network line concentrator, and is connected with the wireless data transmitter 118 and an external network signal through a network line;

the tilt angle sensor is a hardware sensor capable of judging vertical state information data;

the temperature and humidity sensor is a hardware sensor capable of acquiring temperature and humidity;

the air pressure sensor is a hardware sensor capable of acquiring an air pressure value.

The common wall body 600 comprises a common wall body keel frame, the common wall body keel frame comprises a common wall body inner keel and a common wall body outer keel, a common wall body partition keel is arranged between the common wall body inner keel and the common wall body outer keel, a common wall body inner wall plate is arranged on the common wall body inner keel, a common wall body outer wall plate is arranged on the common wall body outer keel, a common wall body first raised line and a common wall body second raised line are respectively arranged at the top and the bottom of the common wall body keel frame, the common wall body first raised line is embedded with a roof groove, the common wall body second raised line is embedded with a foundation groove 103.1, a plurality of common wall body first wall body fixing pieces extending upwards are welded at intervals along the length direction at the top of the common wall body first raised line, a plurality of common wall body second wall body fixing pieces extending downwards are welded at intervals along the length direction at the bottom of the common wall body second raised line, the first common wall fixing piece is inserted into the roof wall fixing piece sleeve, and the second common wall fixing piece is inserted into the foundation wall fixing piece sleeve;

common wall body positioning sensors are arranged on the common wall body first raised lines and the common wall body second raised lines;

a common wall sound insulation layer is filled between the common wall inner wall plate and the common wall partition keel, and the common wall sound insulation layer is a decorative material with a certain sound absorption effect;

and a common wall heat-insulating weather-resistant layer is filled between the common wall external wall panel and the common wall partition keel, and is made of a heat-insulating material with a certain self-expansion coefficient.

The corner end positioning wall 700 comprises a corner end positioning wall keel frame, the corner end positioning wall keel frame comprises a corner end positioning wall inner keel 701 and a corner end positioning wall outer keel 702, a corner end positioning wall partition keel 703 is arranged between the corner end positioning wall inner keel 701 and the corner end positioning wall outer keel 702, a right-angle inner plate is arranged on the corner end positioning wall inner keel 701, an arc-shaped outer plate is arranged on the corner end positioning wall outer keel 702, the corner end positioning wall keel frame is connected between two vertically arranged wall keel frames 705, the side edge of each wall keel frame 705 is embedded in the side edge of each corner end positioning wall keel frame, and the corner end positioning wall keel frames are fixedly connected with the wall keel frames 705 through an assembling 704 connecting assembly;

the assembling and connecting assembly 704 comprises a first limiting strip 704.1 and a second limiting strip 704.2, the first limiting strip 704.1 is vertically arranged on the corner end positioning wall inner keel 701, the second limiting strip 704.2 is vertically arranged on the inner side keel of the wall keel frame 705, a plurality of tooth aligning fastener groups 704.3 which are arranged at intervals up and down are arranged between the first limiting strip 704.1 and the second limiting strip 704.2, and the tooth aligning fastener groups 704.3 are fixedly connected with the corner end positioning wall keel frame and the wall keel frame 705 through a plurality of fixing bolts 704.4;

the pair of tooth fasteners 704.3 includes a first pair of tooth fasteners 704.3.1 and a second pair of tooth fasteners 704.3.2 that snap into one another, the first pair of tooth fasteners 704.3.1 and the second pair of tooth fasteners 704.3.2 are in a straight configuration, one side surface of the first pair of tooth fastening members 704.3.1 is a first sawtooth surface, the other side surface of the first pair of tooth fastening members 704.3 is a first plane, one side surface of the second pair of tooth fastening members 704.3.2 is a second sawtooth surface, the other side surface of the second pair of tooth fastening members 704.3.2 is a second plane, the first serrated surface is matched and connected with the second serrated surface, one end of the first pair of tooth fasteners 704.3.1 is welded with one side edge of the first limit strip 704.1 (the opposite side edge of the second limit strip 704.2), one side of the first plane of the first pair of tooth fasteners 704.3.1 is attached to the inner side of the second spacing bar 704.2, one side of the second sawtooth surface of the second pair of tooth fasteners 704.3.2 is attached to the inner side surface 704.1 of the first limit strip;

four fixing bolts 704.4 which are respectively a first fixing bolt, a second fixing bolt, a third fixing bolt and a fourth fixing bolt and are arranged in the horizontal direction are arranged on the tooth aligning fastener group 704.3;

the first fixing bolt penetrates through the second pair of tooth fasteners 704.3.2, the first limiting strip 704.1, the corner end positioning wall keel frame and the wall keel frame 705;

the second fixing bolt is arranged among the second pair of tooth fasteners 704.3.2, the first pair of tooth fasteners 704.3.1, the corner end positioning wall keel frame and the wall keel frame 705 in a penetrating manner;

the third fixing bolt is arranged among the second pair of tooth fasteners 704.3.2, the first pair of tooth fasteners 704.3.1 and the wall keel frame 705 in a penetrating manner;

the fourth fixing bolt is arranged among the second pair of tooth fasteners 704.3.2, the first pair of tooth fasteners 704.3.1, the second limit strip 704.2 and the wall keel frame 705 in a penetrating manner;

preferably, the assembly connecting assembly 704 can be used for the fixed connection between the building foundation 100 or the roof 200 and the wall, wherein the first pair of tooth fasteners 704.3.1 and the second pair of tooth fasteners 704.3.2 are arranged in a right-angle structure;

an angle end positioning wall sound insulation layer is filled between the angle end positioning wall inner side plate and the angle end positioning wall partition keel 703, and the angle end positioning wall sound insulation layer is a decorative material with a certain sound absorption effect;

an angle end positioning wall heat-insulating weather-resistant layer is filled between the angle end positioning wall outer side plate and the angle end positioning wall partition keel 703, and the angle end positioning wall heat-insulating weather-resistant layer is made of a heat-insulating material with a certain self-expansion coefficient;

the inner side surfaces of the first limiting strip 704.1 and the second limiting strip 704.2 are provided with rubber layers;

the first plane of the first pair of tooth fasteners 704.3.1 and the second plane of the second pair of tooth fasteners 704.3.2 are provided with rubber layers;

the inner side plate and the outer side plate are both hard steel plates;

the first limiting strip 704.1 and the second limiting strip 704.2 are hard high-strength long steel plates.

A construction method of an assembly type steel structure building comprises the following steps:

step one, mounting a building foundation

Firstly, prefabricating a counterweight cushion layer, effectively welding a flat steel bar and a basic steel frame to enable the counterweight cushion layer to be in contact with an installation ground, and orderly installing a first water tank, a second water tank, an electric power control device, a power generation device and a purified water treatment device on a reserved installation hole position on the basic counterweight cushion layer through bolts;

one end of the first power line pipeline is connected with an external power supply, and the other end of the first power line pipeline is connected with an indoor power utilization port through a pipeline integration wall;

one end of the second power line pipeline is connected with the electric energy output port of the power generation device, and the other end of the second power line pipeline is connected with the indoor power utilization port through the pipeline integration wall;

one end of the tap water inlet pipeline is connected with an external water source, and the other end of the tap water inlet pipeline is connected with a water inlet of the first water tank; one end of the first sewage pipeline is connected with an external sewage treatment pipeline, and the other end of the first sewage pipeline is connected with an indoor drainage facility port;

one end of the second sewage pipeline is connected with an indoor drainage facility port, the other end of the second sewage pipeline is connected with a purified water treatment device, and the purified water treatment device is used for transmitting circulating water to an indoor water-using facility port through a purified water circulating pipeline after water treatment;

one end of the rainwater collecting pipeline is connected with the rainwater collecting device on the roof, the other end of the rainwater collecting pipeline is connected with the water inlet of the second water tank, and the rainwater collecting device is connected with the port of the indoor water facility through the water outlet of the second water tank;

one end of the network line pipeline is connected with an external network signal, and the other end of the network line pipeline is connected with an indoor network control port;

connecting a wall positioning sensor arranged on a building bottom plate with a data storage through a data line, connecting a GPS positioning sensor, the data storage and a wireless data transmitter through the data line, and installing the GPS positioning sensor, the data storage and the wireless data transmitter on a basic steel framework;

welding a maintenance steel plate on the periphery of the basic steel frame;

welding a hydraulic top support at the inner corner end of the basic profile steel frame, and connecting the hydraulic top support with an electric control device through a control line;

welding a foundation fixing connecting piece at the outer corner end of the foundation steel frame, and driving the foundation fixing connecting piece into the ground of an installation field through an earth anchor bolt for fixing;

respectively installing and fixing a first power line pipeline, a second power line pipeline, a tap water inlet pipeline, a first sewage pipeline, a second sewage pipeline, a purified water circulating pipeline, a rainwater collecting pipeline and a network line pipeline in the basic steel frame with the counterweight cushion layer, and filling a heat-insulating weather-resistant layer between the building bottom plate and the counterweight cushion layer;

step two, modeling

The data are provided by the wall positioning sensor and the tilt angle sensor and are sent to a remote installation technical department, a model is automatically generated, the information such as the size, the state and the like of the wall can be set in advance, when the wall positioning sensor on the wall is in positioning contact with the wall on the foundation, the wall is shown to be installed to the set position, a reverse modeling effect is achieved, and the building condition of the building is controlled through the model;

step three, mounting the door and window integrated wall

Connecting all members of the door and window integrated wall keel frame by welding; the door and window integrated wall internal keel is welded on one indoor side, the door and window integrated wall external keel is welded on one outdoor side, the door and window integrated wall partition keel is welded between the door and window integrated wall internal keel and the door and window integrated wall external keel, a door and window integrated wall positioning sensor and a door and window integrated wall pipeline interface are installed on a first convex strip at the top and a second convex strip at the bottom of a door and window integrated wall keel frame, and a wall body fixing piece is welded at the first convex strip and the second convex strip of the door and window integrated wall keel frame;

installing a passive door at a reserved passive door installation opening, installing the passive door between a door and window integrated wall outer keel and a door and window integrated wall partition keel through a heat insulation bridge connecting piece, prefabricating a passive door controller on the door and window integrated wall inner keel through a control box, installing a passive door split lock and a security access control, mutually connecting the passive door controller with a fingerprint identification module and a cat eye face identification module in the security access control through control lines, and connecting the whole passive door controller with an information energy control integrated wall through the control lines;

installing a passive window at a reserved passive window installation opening, and installing the passive window between a door and window integrated wall outer keel and a door and window integrated wall partition keel through a heat-insulating bridge connecting piece; installing a small electric winch in a security window gate on a door and window integrated wall outer keel, connecting the small electric winch with an information energy control integrated wall through a control line, welding a sliding track with the door and window integrated wall outer keel, and prefabricating and installing a passive window controller on a door and window integrated wall inner keel through a control box; the passive window controller is connected with the small electric winch and the passive window electromagnetic lock through control lines, and the whole passive window controller is connected with the information energy control integrated wall through the control lines;

installing the door and window integrated wall inner wall board on the door and window integrated wall inner keel, installing the door and window integrated wall outer wall board on the door and window integrated wall outer keel, fully filling the heat-insulating weather-resistant layer between the door and window integrated wall outer wall board and the door and window integrated wall partition keel, and filling the sound-insulating layer between the door and window integrated wall inner wall board and the door and window integrated wall partition keel; installing a rain and sun shelter on the external wall panel of the door and window integrated wall, and fixedly connecting the internal fixed point with the external keel of the door and window integrated wall;

connecting the door and window integrated wall as an integral component with a building foundation in a hoisting mode, aligning and hoisting a second raised strip at the bottom of a keel frame of the door and window integrated wall with a groove part on a building bottom plate in the hoisting process, connecting a wall fixing piece at the bottom of the keel frame of the door and window integrated wall with a sleeve of a wall fixing piece of the foundation in an embedded manner, and tightly connecting a pipeline interface of the door and window integrated wall with a pipeline interface of the foundation;

step four, installing the pipeline integration wall

Connecting all components of the keel frame of the pipeline integrated wall by welding; the pipeline integrated wall keel frame comprises pipeline integrated wall inner keels, pipeline integrated wall outer keels, pipeline integrated wall partition keels, a pipeline integrated wall positioning sensor, a pipeline integrated wall pipeline interface and a wall body fixing piece, wherein the pipeline integrated wall inner keels are welded on one indoor side, the pipeline integrated wall outer keels are welded on one outdoor side, the pipeline integrated wall partition keels are welded between the pipeline integrated wall inner keels and the pipeline integrated wall outer keels, the pipeline integrated wall positioning sensor and the pipeline integrated wall pipeline interface are installed on a first protruding strip at the top and a second protruding strip at the bottom of the pipeline integrated wall keel frame, and the wall body fixing piece is welded at the first protruding strip and the second protruding strip of the pipeline integrated wall keel frame;

various pipelines (such as pipelines of a control circuit pipeline, a first power circuit pipeline, a second power circuit pipeline, a third power circuit pipeline, a network circuit pipeline, a circulating water pipeline, a water collecting pipeline, an indoor air inlet pipeline and the like) are fixedly arranged on the pipeline integrated wall partition keel 403 through metal wires;

installing the pipeline integrated wall inner wall board on the pipeline integrated wall inner keel, installing the pipeline integrated wall outer wall board on the pipeline integrated wall outer keel, fully filling the heat-insulating weather-resistant layer between the pipeline integrated wall outer wall board and the pipeline integrated wall partition keel, and filling the sound-insulating layer between the pipeline integrated wall inner wall board and the pipeline integrated wall partition keel;

installing the pipeline integration wall on the building foundation by adopting the same hoisting method as the third step, wherein part of pipelines are tightly connected with the foundation pipeline interface through the pipeline interface of the pipeline integration wall;

fifthly, installing the information energy control integrated wall

Connecting all components of the information energy control integrated wall keel frame by welding; the information energy control integrated wall comprises an information energy control integrated wall inner keel, an information energy control integrated wall outer keel, an information energy control integrated wall partition keel, an information energy control integrated wall positioning sensor, an information energy control integrated wall pipeline interface and a wall body fixing piece, wherein the information energy control integrated wall inner keel is welded on one indoor side, the information energy control integrated wall outer keel is welded on one outdoor side, the information energy control integrated wall partition keel is welded between the information energy control integrated wall inner keel and the information energy control integrated wall outer keel, the information energy control integrated wall positioning sensor and the information energy control integrated wall pipeline interface are installed on a first convex strip at the top and a second convex strip at the bottom of an information energy control integrated wall keel frame, and the wall body fixing piece is welded at the first convex strip and the second convex strip of the information energy control integrated wall keel frame;

installing an information energy control integrated wall inner wall plate on an information energy control integrated wall inner keel, installing an information energy control integrated wall outer wall plate on an information energy control integrated wall outer keel, fully filling a heat-insulating weather-proof layer between the information energy control integrated wall outer wall plate and the information energy control integrated wall partition keel, and filling a sound-insulating layer between the information energy control integrated wall inner wall plate and the information energy control integrated wall partition keel;

the method comprises the following steps that a control box and a central control switch are installed on a wall plate in an information energy control integrated wall, a GPS positioning sensor, an information control system module, an electromechanical control system module, a waterway control system module, a network modulation module, an inclination angle sensor, a temperature and humidity sensor, an air pressure sensor and other equipment are installed in the control box, the inclination angle sensor is used for detecting the inclination angle of the wall plate, then sending data to a data storage device in a building foundation, and simultaneously displaying the data on a touch display screen of the control box, the network modulation module is equivalent to a router and is used for connecting all equipment needing a network, the information control system module is used for controlling a switch of a security entrance guard and a security window gate, and the central control switch is used for controlling lighting equipment, sound and an entrance guard system;

the electromechanical control system module comprises a first bus controller, a plurality of intelligent electric meters and a plurality of motor control sensors, wherein the first bus controller is installed in the control box, the intelligent electric meters are installed on the power generation equipment and the main electric meter, the motor control sensors are installed on small equipment, are connected through control lines to form a set of electromechanical control system, and are connected with the control box to facilitate control;

the waterway control system module comprises a second bus controller, a flowmeter, an electric water valve and an intelligent water meter, wherein the second bus controller is arranged in the control box, the flowmeter is arranged in the main water meter, the electric driving valve is arranged in a plurality of water pipelines, the intelligent water meter is arranged in the plurality of water pipelines, the intelligent water meters are connected through control lines to form a set of waterway control system and are connected with the control box to be convenient to control;

installing the information energy control integrated wall on a building foundation by adopting the same hoisting mode as the third step;

step six, installing a common wall

Welding a common wall body inner keel on one indoor side, welding a common wall body outer keel on one outdoor side, welding a common wall body partition keel between the common wall body inner keel and the common wall body outer keel, mounting common wall body positioning sensors on a first raised line on the top and a second raised line on the bottom of a common wall body keel frame, and welding wall body fixing parts at the first raised line and the second raised line of the common wall body keel frame;

installing a common wall inner wallboard on a common wall inner keel, installing a common wall outer wallboard on a common wall outer keel, fully filling a heat-insulating weather-proof layer between the common wall outer wallboard and the common wall partition keel, and filling a sound-insulating layer between the common wall inner wallboard and the common wall partition keel;

installing the common wall body on the building foundation by adopting the same hoisting mode as the second step;

seventhly, installing a corner end positioning wall

Connecting all components of the keel frame of the corner end positioning wall by welding; the method comprises the following steps that an inner keel of a corner end positioning wall is welded on one indoor side, an outer keel of the corner end positioning wall is welded on one outdoor side, a partition keel of the corner end positioning wall is welded between the inner keel of the corner end positioning wall and the outer keel of the corner end positioning wall, a right-angle-shaped inner wall board of the corner end positioning wall is installed on the inner keel of the corner end positioning wall, an outer wall board of an arc-shaped corner end positioning wall is installed on the outer keel of the corner end positioning wall, a heat-insulating weather-resistant layer is fully filled between the outer wall board of the corner end positioning wall and the corner end positioning wall, and a sound-insulating layer is filled between the inner wall board of the corner end positioning wall and the partition keel of the corner end positioning wall;

connecting the angle end positioning wall keel frame between two adjacent wall keel frames by adopting an assembly and connection assembly with a straight-line structure, and embedding the side edge of each wall keel frame into the side edge of each angle end positioning wall keel frame;

step eight, mounting the roof

Connecting all components of a roof keel frame by welding, installing a solar water tank and a fresh air total heat exchanger in the roof keel frame, installing a roof upper panel at the top of the roof keel frame, installing a roof lower panel at the bottom of the roof keel frame, installing a roof enclosing plate at the side wall of the roof keel frame, installing a solar photovoltaic power generation plate, a solar thermal collector and a rainwater collecting device on the roof upper panel, and connecting all devices with a pipeline integration wall and a building foundation through various pipelines;

filling a sound insulation layer in the keel frame of the roof;

connecting the roof as an integral component with the wall body in a hoisting mode, aligning and hoisting a groove at the bottom of a keel frame of the roof with a convex strip at the top of each wall body in the hoisting process, connecting a wall body fixing piece of each wall body with a wall body fixing piece sleeve of the roof in an embedded manner, and tightly connecting a pipeline interface of the roof with a pipeline interface of a part of the wall body;

step nine, fixedly connecting the building foundation, the roof and the plurality of wall bodies

And the assembly and connection assembly adopting a right-angle structure is used for fixedly connecting the building foundation, the roof and the bottoms and the tops of the plurality of wall bodies.

Wherein: the door and window integrated wall defined above is also called as a building door and window heat-preservation integrated decorative outer wall;

the pipeline integrated wall defined above is also called as a building pipeline integrated decorative outer wall;

the information energy control integrated wall defined above is also called an information energy control integrated decorative outer wall;

the angle end positioning wall defined above is also called an assembly wall angle end positioning outer wall.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides an energy-conserving shaped steel structure architectural decoration roof which characterized in that: including roof keel frame (201), be provided with the roof top panel (202) of slope and the roof lower panel (203) of keeping flat on roof keel frame (201), be provided with roof bounding wall (204) between roof top panel (202) and the roof lower panel (203), the lower surface edge reservation of roof keel frame (201) has the wall body installation department, wall body installation department is provided with roof recess (201.1), the surface of roof top panel (202) and the inside multiple energy conversion device to the indoor energy of supplying of roof keel frame (201).

2. The energy-saving steel structure building decorative roof as claimed in claim 1, wherein: the outer surface of the roof upper panel (202) is provided with a solar photovoltaic power generation plate (211), a solar heat collector (212) and a rainwater collection device (213);

a solar water tank (206) and a fresh air total heat exchanger (207) are arranged in the roof keel frame (201);

the solar photovoltaic power generation board (211) is used for converting solar energy into electric energy and supplying power to the indoor;

the solar heat collector (212) is used for converting solar energy into heat energy and supplying heat to the solar water tank (206);

the rainwater collecting device (213) is used for collecting rainwater and supplying water to the indoor space;

the fresh air total heat exchanger (207) is used for exchanging heat between outdoor air and indoor air.

3. The energy-saving steel structure building decorative roof as claimed in claim 1, wherein: a plurality of vertical roof wall fixing piece sleeves (205) are welded on the roof keel frame (201) along the circumferential direction of the roof groove (201.1).

4. The energy-saving steel structure building decorative roof as claimed in claim 1, wherein: one side of the roof cover enclosing plate (204) is provided with a second outdoor air inlet (208), the other side of the roof cover enclosing plate (204) is provided with a second outdoor air outlet (210), and a plurality of second indoor air outlets (209) are arranged on the roof lower panel (203).

5. The energy-saving steel structure building decorative roof as claimed in claim 4, wherein: and a ventilation exhaust fan is arranged at the second indoor air outlet (209).

6. The energy-saving steel structure building decorative roof as claimed in claim 1, wherein: and a plurality of second wall body positioning sensors are also arranged in the roof groove (201.1).

7. The energy-saving steel structure building decorative roof as claimed in claim 1, wherein: the roof heat-insulating weather-resistant layer is filled in the roof upper panel (202), the roof lower panel (203) and the roof surrounding plate (204).

8. The energy-saving steel structure building decorative roof as claimed in claim 1, wherein: and a roof sound insulation layer is filled in the roof keel frame (201).

9. The energy-saving steel structure building decorative roof as claimed in claim 1, wherein: and an access hole is formed in the room cover enclosing plate (204).

Images